Image de couverture de livre

A Two-Stage Machine Learning Approach for Calving Detection in Rangeland Cattle

Enregistré dans:
Publié dans:Agriculture vol. 15, no. 13 (2025), p. 1434-1455
Auteur principal: Wang, Yuxi
Autres auteurs: Perea Andrés, Cao Huiping, Bakir Mehmet, Utsumi Santiago
Publié:
MDPI AG
Sujets:
New Mexico
United States > US
Chihuahuan Desert
Rangelands
Beef
Research facilities
Monitoring methods
Livestock
Deep learning
Cattle
Ranching
Accelerometers
Dairy cattle
Sensors
Pasture
Supervised learning
Animal welfare
Environmental conditions
Monitoring systems
Machine learning
Systems stability
Monitoring
Management systems
Learning algorithms
Deserts
Cameras
Coordinate transformations
Computer vision
Navigation behavior
Labor
Temperature
Multisensor applications
Real time
Data transmission
Global navigation satellite system
Environmental
Accès en ligne:Citation/Abstract
Full Text + Graphics
Full Text - PDF
Tags: Ajouter un tag
Pas de tags, Soyez le premier à ajouter un tag!
Résumé:Monitoring parturient cattle during calving is crucial for reducing cow and calf mortality, enhancing reproductive and production performance, and minimizing labor costs. Traditional monitoring methods include direct animal inspection or the use of specialized sensors. These methods can be effective, but impractical in large-scale ranching operations due to time, cost, and logistical constraints. To address this challenge, a network of low-power and long-range IoT sensors combining the Global Navigation Satellite System (GNSS) and tri-axial accelerometers was deployed to monitor in real-time 15 parturient Brangus cows on a 700-hectare pasture at the Chihuahuan Desert Rangeland Research Center (CDRRC). A two-stage machine learning approach was tested. In the first stage, a fully connected autoencoder with time encoding was used for unsupervised detection of anomalous behavior. In the second stage, a Random Forest classifier was applied to distinguish calving events from other detected anomalies. A 5-fold cross-validation, using 12 cows for training and 3 cows for testing, was applied at each iteration. While 100% of the calving events were successfully detected by the autoencoder, the Random Forest model failed to classify the calving events of two cows and misidentified the onset of calving for a third cow by 46 h. The proposed framework demonstrates the value of combining unsupervised and supervised machine learning techniques for detecting calving events in rangeland cattle under extensive management conditions. The real-time application of the proposed AI-driven monitoring system has the potential to enhance animal welfare and productivity, improve operational efficiency, and reduce labor demands in large-scale ranching. Future advancements in multi-sensor platforms and model refinements could further boost detection accuracy, making this approach increasingly adaptable across diverse management systems, herd structures, and environmental conditions.
ISSN:2077-0472
DOI:10.3390/agriculture15131434
Source:Agriculture Science Database